RU194118U1 - ELECTRODE FOR TRANSLINGUAL NEUROSTIMULATION - Google Patents

Abstract

The utility model relates to non-invasive methods of neurostimulation, to a method of supplying electrical impulses during translingual neurostimulation. An electrode for translingual stimulation ensures the presentation of electrical impulses to the tongue consists of a printed circuit board with components deposited on it, on which metallized contacts are made. The part of the board on which the components are applied is closed by means of a body-hardening substance after application. The electrode protects the elements of microelectronics while improving hygiene. 2 s.p. f-ly.

Description

The utility model relates to non-invasive methods of neurostimulation, and in particular to a method of delivering electrical impulses during translingual neurostimulation.

A known electrode for applying voltage to the tongue for translational stimulation is described in RU 2652571. It consists of a printed circuit board with electronic microelectronic components deposited on it and an attached housing that covers these components, forming a cavity for placement of components that form a control circuit in it. This design of the electrode has a significant drawback. During operation, the electrode is mechanically damaged by teeth and the sealed connection of the case to the board is broken. As a result, aggressive moisture (saliva, disinfection solution, condensate) gets under the body. In addition, the electrode is operated and cleaned under conditions creating a temperature difference between the internal space under the housing and the external environment. Because of this, a salt chamber is formed inside the casing, under the conditions of which destruction of elements of microelectronic components quickly occurs. Moisture also enters between the legs of the microelectronic component and closes the connection between them. All this leads to improper operation of the electrode due to short circuits in the contacts of microelectronic elements and the rapid failure of components, not to mention the fact that such conditions are: increased humidity and temperature, bacteria-rich environment, places for moisture to stagnate between the legs of microelements, make the electrode unhygienic.

The claimed solution allows to increase the reliability of the electrode while increasing hygiene.

The claimed effects are achieved by an electrode for translingual stimulation, through which the presentation of electrical impulses to the tongue is ensured, consisting of a printed circuit board with components deposited on it, on which metallized contacts are made. According to a utility model, the part of the board on which the components are deposited is closed by means of a cured substance after application forming a body.

The material to be cured after application is a polymer substance that forms a monolithic body.

Additionally, the curable substance is inextricably applied to a part of the circuit board in such a way that only the contact area remains open.

The electrode for translingual stimulation, through which the presentation of electrical impulses to the tongue is provided, consists of a printed circuit board with microelectronic components deposited on it, on which metallized contacts are made. According to a utility model, the part of the board on which the microelectronic components are applied that form the control circuit is closed by means of the body-forming substance cured after application. Due to the creation of such a monolithic body, flowing or flowing around the elements of microcomponents, for example, by injection molding the necessary part of the printed circuit board with a polymer substance under pressure, the internal cavity under the body and the places through which the liquid can penetrate are practically eliminated. Thus, even if voids are formed in the electrode, their size and closedness of the pores formed by them prevent the penetration of liquids into them, which prevents the creation of aggressive conditions that destroy the elements of microelectronics and create breeding sites for bacteria.

With the correct selection of polymer material, elements for fixing such a case are not required, because the case material is fixed by adhesion, however, for reliability, for example, elements creating irregularities in the board, for example, protrusions, holes, recesses, etc., can be additionally performed.

It should be noted that such a housing can be made of various materials that are resistant to mechanical damage and moisture, for example, from substances used for dental prosthetics. However, it is preferable to perform it from polymeric materials, because they have great resistance to fracture during bending, which is important because during operation, the electrode undergoes slight bends when bitten by teeth. Therefore, an electrode with such a housing made of a polymeric material is more reliable, because due to the elasticity of the material, microcracks are not formed in it.

In addition, to further increase reliability, an additional curable substance can be inextricably applied to part of the board so that only the contact area remains open. This will make it possible to close the entire part of the board that was not involved in the presentation of electrical pulses, thereby further improving the reliability of the electrode by increasing bending stiffness and protecting all possible places on the board from aggressive moisture.

Claims (3)

1. An electrode for translingual stimulation, through which the presentation of electrical impulses to the tongue is provided, consisting of a printed circuit board with components deposited on it, on which metallized contacts are made, characterized in that the part of the circuit board on which the components are deposited is closed by means of a substance that is cured after application forming a body. 2. The electrode according to claim 1, characterized in that the substance to be cured after application is a polymeric substance that forms a monolithic body. 3. The electrode according to claim 1, characterized in that the additionally curable substance is inextricably deposited on part of the board so that only the area with contacts remains open.